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Solar Cells Summer research Presented by: Peter Eseraigbo.

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Presentation on theme: "Solar Cells Summer research Presented by: Peter Eseraigbo."— Presentation transcript:

1 Solar Cells Summer research Presented by: Peter Eseraigbo

2 Overview Introduction How solar cells work Products Challenges

3 Solar cells Explorer 6 launched 1959: powered by solar cells

4  Coal, oil, and gas are not only limited, but also contribute to unpredictable and possibly irreversible climate changes Coal

5 On a bright, sunny day, the sun's rays give off approximately 1,000 watts of energy per square meter of the planet's surface

6 Photoelectric effect: Showed a side of light as packets of energy rather than waves Increasing frequency of light, produced electric current.

7  The modern photovoltaic cells / solar cells consist primarily of Silicon.  But ordinary silicon does not help capture and use the photon energy coming from the sun.  We use two other elements that are close in their electronic structure to silicon. How Solar Cells work

8  Silicon has 4 valence electrons.

9 2D representation of the structure of silicon

10 The energy required for an electron to get promoted to the conduction band is the Band Gap

11 Photons that do not have the required energy just go through the material. Photons that have enough energy promote electrons to the Conduction band

12  When electrons are in the conduction band, they are free to move and therefore can carry an electric current. Why do we want electrons in the conduction band?

13  Electrons, once promoted can spontaneously fall back to the valence shell in a process called recombination. Recombination

14  Separating electrons from holes: This can be accomplished with an electric field Eg. Adding a battery How Solar Cells work

15  We don’t need a battery to create our electric field.  Modern solar cells use an intrinsic electric field to generate the current we need  To do this, a modern solar cell uses a P-N junction. P-N Junction

16  Impurities are introduced into the silicon in a process called doping.  In this process, some silicon atoms are replaced with impurity atoms. P-N Junction

17  Boron  Phosphorous  Are common impurity atoms. P-N Junction Boron forms p-type silicon Phosphorous forms n-type silicon

18 P-N Junction P-N junction

19 P-N Junction With the PN junction, we have prevented the spontaneous Recombination of the electrons.

20

21 The aircraft uses super-efficient solar cells and batteries to stay in the air after the Sun's rays had faded.

22 Challenges Cost Efficiency Solar cell technologies Crystalline Silicon Thin film solar cell Amorphous Silicon Cadmium telluride Copper Indium gallium diselenide Dye synthesized solar cell

23 Efficiency LosselectricalOhmicRecombinationoptical -Reflection -Shadowing -Unabsorbed Radiation

24 Cost Cost of material Purifying silicon Energy Storage

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